The invention discloses a methanol-water mixture reforming hydrogen production generator, including an electronic control system, a methanol-water mixture feed system, a hydrogen production system and a power generation system, where the electronic control system includes a control mainboard, a power supply device and a power output port, and the control mainboard controls operations of the methanol-water mixture feed system, the hydrogen production system and the power generation system; the power supply device includes a rechargeable battery; the methanol-water mixture feed system includes a main feed pipe, a transfer pump, a start-up feed solenoid valve, a start-up feed branch pipe, a hydrogen production feed solenoid valve and a hydrogen production feed branch pipe. All the systems coordinate with each other well, the electronic control system provides stable control, power from external power sources is not needed when during start-up, and the methanol-water mixture feed system has low costs and good cohesion.
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1. A methanol-water mixture reforming hydrogen production generator, characterized by comprising an electronic control system, a methanol-water mixture feed system, a hydrogen production system and a power generation system, wherein: the electronic control system comprises a control mainboard, a power supply device and a power output port, and the control mainboard controls operations of the methanol-water mixture feed system, the hydrogen production system and the power generation system; the power supply device comprises a rechargeable battery supplying power to the methanol-water mixture reforming hydrogen production generator in a start-up process of the methanol-water mixture reforming hydrogen production generator; the power output port is used for outputting power to the outside by the power generation system; the methanol-water mixture feed system comprises a main feed pipe, a transfer pump, a start-up feed solenoid valve, a start-up feed branch pipe, a hydrogen production feed solenoid valve and a hydrogen production feed branch pipe; in the start-up process of the methanol-water mixture reforming hydrogen production generator, the start-up feed solenoid valve is opened and the hydrogen production feed solenoid valve is closed, and methanol-water mixture feedstock is fed through the main feed pipe, the transfer pump, the start-up feed solenoid valve and the start-up feed branch pipe successively and supplied to a start-up device of the hydrogen production system; in the hydrogen production process of the methanol-water mixture reforming hydrogen production generator, the hydrogen production feed solenoid valve is opened and the start-up feed solenoid valve is closed, and methanol-water mixture feedstock is fed through the main feed pipe, the transfer pump, the hydrogen production feed solenoid valve and the hydrogen production feed branch pipe successively and supplied to a reforming hydrogen production device of the hydrogen production system; the hydrogen production system comprises the reforming hydrogen production device and the start-up device, wherein the reforming hydrogen production device comprises a reforming chamber, a separation chamber and a combustion chamber, the reforming chamber is used for producing a gas mixture with carbon dioxide and hydrogen as major components when reforming hydrogen production reaction occurs on methanol and water, the separation chamber is used for separating hydrogen from the gas mixture, the hydrogen may be output to the outside or supplied to a fuel cell, and the combustion chamber is used for combusting a portion of the produced hydrogen in the combustion chamber to provide heat for the operation of the reforming hydrogen production device; the start-up device is used in the startup process of the methanol-water mixture reforming hydrogen production generator, to provide heat for the start-up process of the reforming hydrogen production device through the fuel methanol-water mixture feedstock; wherein the start-up device of the hydrogen production system comprises a feed riser pipe, a flame tray, an upper cover body and an igniter, wherein the flame tray and the upper cover body are disposed on the feed riser pipe from the bottom up; the middle part of the upper cover body is provided with an aperture in communication with the feed riser pipe, the methanol-water mixture feedstock flows from the feed riser pipe up to the aperture and be exuded from the aperture and spread around along the upper side surface of the upper cover body until flowing into the flame tray; and an ignition position of the igniter corresponds to the upper side surface of the upper cover body; and the power generation system comprises a fuel cell, wherein the fuel cell is used for producing electric energy when electrochemical reaction occurs on hydrogen and oxygen in the air, the produced electric energy is output through the power output port, and the produced electric energy may also be used to charge the rechargeable battery.
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This application is a continuation of International Patent Application No. PCT/ICN2016/1085782 with a filing date of Jun. 15, 2016, designating the United States, now pending, and further claims priority to Chinese Patent Application No. 201510476342.5 with a filing date of Aug. 6, 2015. The content of the aforementioned application, including any intervening amendments thereto, are incorporated herein by reference.
The present invention relates to the technical field of hydrogen production and power generation devices, in particular to a methanol-water mixture reforming hydrogen production generator.
Hydrogen is one of the most desirable energy in the 21st century. Hydrogen produces the most energy during combustion of the same weight of coal, gasoline and hydrogen, and the product of combustion of hydrogen is water without ash and waste gas, and therefore will not pollute the environment; while the main products of combustion of coal and oil are CO2 and SO2, which may cause greenhouse effect and acid rain. Reserves of oil and coal are limited, but hydrogen mainly exists in water, and the only product after combustion is also water, so that hydrogen can be generated continuously and will never run out. Hydrogen is widely distributed, and water is a large “warehouse” of hydrogen and contains 11% hydrogen. Soil contains about 1.5% hydrogen; and oil, coal, natural gas, animals, plants and the like all contain hydrogen. Hydrogen mainly exists in a form of a compound of water, about 70% of the Earth's surface is covered with water, and water storage capacity is large; therefore it can be said that hydrogen is “inexhaustible” energy. If hydrogen can be produced in a suitable way, then hydrogen will also be relatively cheap energy.
At present, the methanol steam reforming technology is used to produce a gas mixture of H2 and CO2, then the gas mixture may be separated by a palladium membrane separator to obtain H2 and CO2 respectively. With reference to Chinese invention application 201310340475.0 (applicant: Shanghai Hydrogen Mobile Reformer Instrument. Co., Ltd), the patent discloses a methanol-water mixture hydrogen production system in which methanol and water steam in the reforming chamber of the reformer pass through catalysts at the temperature of 350-409° C. and at the pressure condition of 1-5 MPa, and under the action of the catalysts, methanol cracking reaction and carbon monoxide shift reaction occur to generate hydrogen and carbon dioxide, and this is a gas-solid catalytic reaction system involving multiple components and multiple reactions, with reaction equations as follows: (1) CH3OH→CO+2H2; (2) H2O+CO→CO2+H2; and (3) CH3OH+H2O→CO2+3H2, H2 and CO2 generated from reactions are reformed, and then separated through the palladium membrane of a separation chamber to obtain high purity hydrogen.
With the development of technology, hydrogen is increasingly widely used in industries, such as synthetic ammonia industry and petroleum refining hydrogenating industry; in addition, hydrogen can also be used for generating electricity. With reference to Chinese invention application 201410622203.4 (applicant: Shanghai Hydrogen Mobile Reformer Instrument Co., Ltd), the invention discloses an electric generator based on methanol-water mixture hydrogen-making system and electricity generation method thereof, where the generator adopts a fuel cell as power generation equipment, the fuel cell is used for producing electric energy when electrochemical reaction occurs on hydrogen and oxygen in the air, at the anode of a fuel cell 1: 2H2→4H++4e−, H2 is split into two protons and two electrons, the protons pass through a proton exchange membrane (PEM), and the electrons pass through an anode plate, and enter a cathode bipolar plate through an external load; and at the cathode of the fuel cell 1: O2+4e−+4H+→2H2O, the protons, the electrons and O2 are recombined to form H2O. The generator integrates methanol-water mixture reforming hydrogen production and the fuel cell, realizing the technical purpose of integrating hydrogen production and electricity generation. However, in the prior art, a methanol-water mixture reforming hydrogen production generator still has the following defects: coordination among systems is poor, the electronic control system has unstable control, the methanol-water mixture reforming generator needs to be connected to an external power supply during start-up, liquid feedstock is delivered to a reforming hydrogen production device and a start-up device of a hydrogen production system by mutually independent liquid feed systems, with relatively high costs, poor cohesion, and imprecise control.
The technical problem solved by the present invention aims at overcoming the defects in the prior art by providing a methanol-water mixture reforming hydrogen production generator in which all systems coordinate with each other well, an electronic control system provides stable control, power from external power sources is not needed during start-up, and the methanol-water mixture feed system has low costs and good cohesion.
For solving the above technical problem, the technical solution of the present invention is as follows: a methanol-water mixture reforming hydrogen production generator includes an electronic control system, a methanol-water mixture feed system, a hydrogen production system and a power generation system, wherein
the electronic control system includes a control mainboard, and a power supply device and a power output port, the control mainboard controls operations of the methanol-water mixture feed system, the hydrogen production system and the power generation system; the power supply device includes a rechargeable which supplies power to the methanol-water mixture reforming hydrogen production generator itself in the start-up process of the methanol-water mixture reforming hydrogen production generator; the power output port is used for outputting power to the outside by the power generation system;
the methanol-water mixture feed system includes a main feed pipe, a transfer pump, a start-up feed solenoid valve, a start-up feed branch pipe, a hydrogen production feed solenoid valve and a hydrogen production feed branch pipe; in the start-up process of the methanol-water mixture reforming hydrogen production generator, the start-up feed solenoid valve is opened and the hydrogen production feed solenoid valve is closed, and methanol-water mixture feedstock is fed through the main feed pipe, the transfer pump, the start-up feed solenoid valve and the start-up feed branch pipe successively and supplied to a start-up device of the hydrogen production system; in the hydrogen production process of the methanol-water mixture reforming hydrogen production generator, the hydrogen production feed solenoid valve is opened and the start-up feed solenoid valve is closed, and methanol-water mixture feedstock is fed through the main feed pipe, the transfer pump, the hydrogen production feed solenoid valve and the hydrogen production feed branch pipe successively and supplied to a reforming hydrogen production device of the hydrogen production system;
the hydrogen production system includes the reforming hydrogen production device and the start-up device, wherein the reforming hydrogen production device includes a reforming chamber, a separation chamber and a combustion chamber, the reforming chamber is used for producing a gas mixture with carbon dioxide and hydrogen as major components when reforming hydrogen production reaction occurs on methanol and water, the separation chamber is used for separating hydrogen from the gas mixture, the hydrogen may be output to the outside or supplied to a fuel cell, and the combustion chamber is used for combusting a part of the produced hydrogen in the combustion chamber to provide heat for the operation of the reforming hydrogen production device; the start-up device is used in the start-up process of the methanol-water mixture reforming hydrogen production generator, to provide heat for the start-up process of the reforming hydrogen production device through the fuel methanol-water mixture feedstock; and
the power generation system includes a fuel cell, wherein the fuel cell is used for producing electric energy when electrochemical reaction is performed on hydrogen and oxygen in the air, the produced electric energy is output through the power output port, and the produced electric energy may also be used to charge the rechargeable battery.
The present invention is further illustrated as follows:
The electronic control system is further provided with a wireless signal transmitting and receiving device, wherein the wireless signal transmitting and receiving device includes a signal converter electrically connected with the control mainboard and an antenna mounted on the signal converter. The methanol-water mixture reforming hydrogen production generator further includes a mobile control device, wherein the mobile control device achieves wireless connection with the wireless signal transmitting and receiving device by way of WIFI, and the mobile control device is provided with a display module for displaying data parameters and a control module for setting working procedure of the methanol-water mixture reforming hydrogen production generator.
The power supply device further includes a first power supply module and a second power supply module, and in the process of start-up of the methanol-water mixture reforming hydrogen production generator, the rechargeable battery supplies power to the methanol-water mixture reforming hydrogen production generator itself through the first power supply module; and in the processes of hydrogen production and power generation of the methanol-water mixture reforming hydrogen production generator, the power generation system charges the rechargeable battery through the second power supply module and automatically stops the charging when the rechargeable battery is fully charged.
The methanol-water mixture reforming hydrogen production generator further includes a heat exchange system, wherein the heat exchange system includes a co-axial double-layer heat exchange pipe, a normal temperature liquid inlet, a high temperature liquid outlet, a high temperature gas inlet and a low temperature gas outlet; the inner-layer pipeline of the double-layer heat exchange pipe is a gas pipeline, and the outer-layer pipeline is a liquid pipeline; at one end of the double-layer heat exchange pipe, the gas pipeline is in communication with the high temperature gas inlet and the liquid pipeline is in communication with the high temperature liquid outlet; at the other end of the double-layer heat exchange pipe, the gas pipeline is in communication with the low temperature gas outlet, and the liquid pipeline is in communication with the normal temperature liquid inlet; in the hydrogen production process of the methanol-water mixture reforming hydrogen production generator, the methanol-water mixture feedstock in the hydrogen production feed branch pipe enters the liquid pipeline by the normal temperature liquid inlet, the hydrogen produced by the hydrogen production system enters the gas pipeline by the high temperature gas inlet, methanol-water mixture feedstock in the liquid pipeline and hydrogen in the gas pipeline exchange heat thereof, the methanol-water mixture feedstock increases in temperature and is output to the reforming hydrogen production device by the high temperature liquid outlet, and the hydrogen decreases in temperature and is output to the outside or to the fuel cell by the low temperature gas outlet.
The start-up device of the hydrogen production system includes a feed riser pipe, a flame tray, an upper cover body and an igniter, wherein the flame tray and the upper cover body are disposed on the feed riser pipe from the bottom up; the middle part of the upper cover body is provided with an aperture in communication with the feed riser pipe, the methanol-water mixture feedstock may flow from the feed riser pipe up to the aperture and be exuded from the aperture and spread around along the upper side surface of the upper cover body until flowing into the flame tray; and an ignition position of the igniter corresponds to the upper side of the upper cover body. Furthermore, a lower cover body is further provided between the flame tray and the upper cover body, wherein the lower cover body is mounted on the feed riser pipe, and may prevent the methanol-water mixture feedstock in the flame tray from sputtering outwardly. A plurality of vent holes are disposed on the periphery of the flame tray, so that external air enters through the vent holes into the flame tray and the combustion chamber in the reforming hydrogen production device, preferably, the vent holes of the flame tray are spiral vent hole grooves.
The methanol-water mixture reforming hydrogen production generator further includes a gas control system, wherein the gas control system is disposed on a transfer pipeline used for transferring the hydrogen to the fuel cell; the gas control system includes a safety gas control pipe, a safety solenoid valve and a safety air pressure sensor, wherein the safety solenoid valve and the safety air pressure sensor are mounted on the safety gas control pipe; the safety gas control pipe has a gas release hole matched with the safety solenoid valve, and in a process that hydrogen passes through the safety gas control pipe, if the safety air pressure sensor senses that a hydrogen pressure is higher than an alert pressure, the safety solenoid valve is controlled to open the gas release hole, to discharge hydrogen to the outside; and the safety solenoid valve may be powered by the rechargeable battery.
The present invention has the beneficial effects that the methanol-water mixture reforming hydrogen production generator includes the electronic control system, the methanol-water mixture feed system, the hydrogen production system and the power generation system, all the systems coordinate well, hydrogen may be produced independently and then output to the outside, hydrogen production may also be combined with power generation, the electronic control system includes the control mainboard, the power supply device and the power output port, the control mainboard controls operations of the methanol-water mixture feed system, the hydrogen production system and the power generation system, the electronic control system provides stable control, in the start-up process of the methanol-water mixture reforming hydrogen production generator, power from external power sources is not needed, and the methanol-water mixture reforming hydrogen production generator itself may be powered by the rechargeable battery, after the operation of the fuel cell is finished, the rechargeable battery can be charged in turn; the methanol-water mixture feed system is used to comprehensively control liquid feed of the reforming hydrogen production device and the start-up device, with relatively low costs and good cohesion.
The structure principle and working principle of the present invention are described below in further detail with reference to the drawings.
As shown in
The methanol-water mixture feed system 4, with reference to
the hydrogen production system, with reference to
the power generation system includes the fuel cell 7 used for hydrogen and oxygen in the air to react electrochemically to produce electric energy, at the anode of the fuel cell 7: 2H2→4H++4e−, H2 is split into two protons and two electrons, the protons pass through a proton exchange membrane (PEM), the electrons pass through an anode plate and enter into a cathode bipolar plate through an external load, and at the cathode of the fuel cell 7: O2+4e−+4H+→2H2O, the protons, the electrons, and O2 are recombined to form H2O; the produced electric energy is output through the power output port 6, and may also be used for charging the rechargeable battery 201. One side of the fuel cell is provided with two draught fans 701, and the other side is provided with an air filtering screen 702, under the driving of the two draught fans 701, external air enters into the fuel cell through the air filtering screen 702, and then is exhausted through the two draught fans 701. On the one hand, the external air cools the fuel cell 7 during the process of entering into the fuel cell 7, on the other hand provides oxygen for electrochemical reactions in the fuel cell 7.
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The contents stated above are only preferred embodiments of the present invention, and all the subtle modification, equivalent changes and embellishment of the above embodiments according to the technical schemes of the invention shall fall within the protection scope of the invention.
Xiang, Hua, Ma, Jin, Yang, Weitao, Cai, Rong, Li, Wenxia, Ma, Yongfeng, Lei, Jianlin, Liang, Wanguang
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